We are so grateful to our structural biology community for helping us grow Current Research in Structural Biology for the past 2 years, shaping it into a great place to publish, raise visibility of all your structural biology research!

Check out COSB collection on 3D Genome Chromatin Organization and Regulation:.

RT @BriannaDia37299: Artificial intelligence methods for protein folding and design .@COSB_CRSB.１．This review highlights a major paradigm s….

Single-molecule fluorescence imaging (SMFI) is revealing how genome maintenance proteins interact with DNA in real time—uncovering the dynamic mechanisms behind genome stability. #SMFI #DNARepair #GenomeStability .

RT @BiologyAIDaily: Artificial intelligence methods for protein folding and design @COSB_CRSB. １．This review highlights a major paradigm sh….

G-quadruplexes (G4s) are rising stars in therapeutic research! Explore how natural and synthetic G4s interact with proteins, revealing new insights into complex biology and inspiring next-gen drug design. #GQuadruplex #StructuralBiology #Therapeutics #COSB.

Cracking the C2H2 zinc-finger code! Discover how recent structural studies reveal new insights into how the largest family of mammalian transcription factors achieves precise DNA recognition. #ZincFingers #TranscriptionFactors #StructuralBiology #COSB.

Pioneering transcription factors reshape chromatin! Discover how recent structures reveal diverse strategies TFs use to engage nucleosomes—bending DNA, binding histones, and driving cell fate changes. #TranscriptionFactors #Chromatin #StructuralBiology .

How does DNA replication begin? Discover how cryo-EM and single-molecule studies are revealing the dynamic assembly of helicases and pre-replication complexes at origins—across species. #DNAReplication #CryoEM #StructuralBiology #COSB.

Stretched in nanofluidic channels, DNA reveals its secrets! Learn how this powerful method sensitively probes DNA–protein interactions at physiological conditions. #DNA #Biophysics #Nanofluidics #COSB.

How does the cell fix replication errors? Discover new structural and single-molecule insights into DNA mismatch repair initiation by MutS and MutL, and how cells discriminate strands to ensure accuracy. #DNARepair #MMR #StructuralBiology #COSB.

RT @ZhenHou7: Our new review article is finally here, and it’s a journey through time and technology of chromatin studies.🔬Now, we’re divin….

Unraveling chromatin at atomic detail! Discover how solid-state NMR is revealing the structure and dynamics of histones in densely packed nucleosomes—shedding light on gene regulation in the cell. #Chromatin #NMR #StructuralBiology #COSB.

How does gene regulation balance specificity and flexibility? Explore how fuzzy, dynamic DNA–protein interactions shape chromatin remodeling, transcription, and repair via a continuum of binding modes. #GeneRegulation #DNA #FuzzyBinding #COSB.

RT @tuhin1992: An AI driven computational analysis of the biofilm regulatory Diguanylate cyclases of Vibrio cholerae: Possible drug targets….

DNA isn’t just for genes—inside or outside the cell! Explore how extracellular DNA forms novel nucleoprotein structures in both eukaryotes and bacteria, supporting survival and new biological functions. #DNA #ExtracellularDNA #Nucleoprotein #COSB.

Viral DNA packaging motors are among nature’s strongest! Explore how new structural and computational insights are revealing how ATPase rings generate force and coordinate to pack genomes with precision. #Virology #MolecularMotors #DNAPackaging #COSB.

RT @chiosislabmskcc: 🧵Have you checked out our recent article in @COSB_CRSB? Follow along with this thread by @souparna_c to learn about th….

How is chromatin folded in single cells—and what does it mean for brain development? Explore cutting-edge methods for 3D chromatin analysis and their insights into neural function and disease. #Chromatin #3DGenomics #Neurobiology #COSB.

Micronuclei—tiny nuclei with big consequences. Learn how chromosomal instability, nuclear defects, and ruptures in MN disrupt genome stability and gene regulation, even before rupture occurs. #GenomicInstability #Micronuclei #CellBiology #COSB.

DNA supercoiling isn’t just tension—it’s regulation! Discover how topological stress shapes chromatin structure, gene expression, and even disease, with new insights into nucleosomes, motors, and topoisomerases. #DNATopology #Chromatin #GeneRegulation .